Objective:To investigate the current situation of key endemic disease prevention and control in Shanxi Province, and provide a scientific basis for further strengthening the implementation of prevention and control measures.Methods:In 2021, monitoring of key endemic disease prevention and control projects in Shanxi Province was carried out in accordance with the current national monitoring plans for iodine deficiency disorders and water source high iodine areas, for endemic fluorosis, endemic arsenic poisoning, Kashin-Beck disease, and Keshan disease. The effect of prevention and control measures was evaluated in accordance with the "Evaluation Measures for Key Endemic Disease Control and Elimination (2019 Edition)". Patient management services and treatment subsidy projects were carried out in accordance with the "Management Service Standards for Endemic Disease Patients" and the "Management Measures for Treatment of Endemic Disease Patients".Results:All 117 counties (cities, districts, hereinafter referred to as counties) in Shanxi Province had reached the national elimination standards for iodine deficiency disorders, and the overall iodine nutrition of the population was generally suitable. However, the consumption rate of qualified iodine salt in 8 counties was ≤90%, and the iodine nutrition of pregnant women in 13 counties was insufficient. The water improvement rate in 295 villages in 12 counties across the province with high water iodine level was 80.68% (238/295), and the proportion of villages with qualified water iodine after water improvement was 38.31% (113/295). The prevention and control measures of 93.55% (58/62) of the counties in the province with endemic fluorosis caused through drinking water reached the national control standards. Totally 20 counties ravaged by coal-burning borne endemic fluorosis, 16 counties ravaged by drinking water borne endemic arsenicosis (high arsenic areas), 35 counties ravaged by Kashin-Beck disease, and 11 counties ravaged by Keshan disease met the national elimination standards. In 2021, 11 197 patients with endemic diseases were followed up and managed in Shanxi Province, and drug treatment programs were carried out on 3 413 patients with skeletal fluorosis, 2 088 patients with Kashin-Beck disease, and 10 patients with chronic Keshan disease.Conclusions:The overall prevention and control of key endemic diseases in Shanxi Province remains under control or elimination. However, the water improvement in some drinking water borne endemic fluorosis areas still needs to be further strengthened. Measures for water improvement and supply of non-iodized salt in water source high iodine areas still need to be coordinated and promoted. Key endemic disease patients in Shanxi Province have basically achieved standardized management.

The hazards of water-borne iodine excess is a relatively serious public health problem in China. The government has made great progress in prevention and controlling of the hazards of water-borne iodine excess through measures such as supplying non-iodized salt and implementing measures such as improving water quality to decrease iodine. However, there is a lack of corresponding evaluation criteria for measuring the implementation level and effectiveness of prevention and control measures, which urgently needs to be addressed. This article explores the technical indicators for establishing control standards for water source high iodine hazards in China through a review and analysis of relevant laws and regulations, normative documents, standards, and research progress in the field of high iodine prevention and control at home and abroad. It is recommended that administrative villages be used as units to evaluate the control status of water source high iodine hazards; after water improvement and iodine reduction, the iodine content of residents' drinking water should be ≤100 μg/L; meanwhile, the median urinary iodine for school-age children should be between 100 and < 300 μg/L, thyroid enlargement rate should be less than 5%.

Objective:To investigate the prevalence of thyroid disease in adults in different water iodine areas and to explore the association between iodine and thyroid disease.Methods:In May of 2016, using cross-sectional survey, Gaoche Village and Maxi Village of Wenshui County were selected in Shanxi Province as a high-iodine area and a low-iodine area, respectively, Xiwenzhuang Village of Taiyuan City as an appropriate-iodine area. Questionnaire surveys, urinary iodine levels, thyroid ultrasound, determination of thyroid function and autoantibody were conducted for permanent residents aged 18 - 65.Results:A total of 898 people were investigated, including 288 in high-iodine area, 324 in low-iodine area and 286 in appropriate-iodine area. The medians urinary iodine were 417.8, 126.6 and 216.5 μg/L in high, low and appropriate-iodine areas, respectively, and the difference was statistically significant ( H = 288.61, P < 0.05). After age and sex standardization, the detection rates of hyperthyroidism in low, appropriate and high-iodine areas were 0.27%, 1.06% and 1.43%, respectively. The detection rates of sub-clinical hyperthyroidism were 0.57%, 0.31% and 0.30%, respectively. The detection rates of hypothyroidism were 1.45%, 1.15% and 1.85%, respectively. The detection rates of sub-clinical hypothyroidism were 19.34%, 28.50% and 32.76%, respectively. The detection rates of thyroid nodule were 20.51%, 20.17% and 33.78%, respectively. The positive rates of anti-thyroglobulin antibodies (TgAb) were 18.13%, 19.41% and 11.99%, respectively. The positive rates of thyroid peroxidase antibody (TPOAb) were 9.25%, 12.04% and 8.97%, respectively. The appropriate-iodine area was used as control, logistic regression analysis showed that only the detection rate of thyroid nodule in high-iodine area was significantly higher than that in appropriate-iodine area [odds ratio ( OR) = 0.488 5, 95% confidence interval ( CI) = 0.327 2 - 0.729 2 , P < 0.05]. Conclusion:In Shanxi Province, the detection rate of thyroid nodules is different in different areas of water iodine, and the detection rate of thyroid nodule in adults in high-iodine area is higher than that in other areas.

Objective:To learn about the status of iodine deficiency disorders (IDD) and iodine nutrition of residents in Shanxi Province since the implementation of the standard of "Iodine Content in Edible Salt" (GB 26878-2011), to evaluate the level of prevention and control of IDD, and to provide scientific basis for adjusting prevention and control strategies.Methods:The data of core indicators monitored by Shanxi Province in accordance with the requirements of the national iodized salt and IDD monitoring program for each year from 2012 to 2021 were comprehensively reviewed, and the change trends of the indicators such as coverage rate of iodized salt, consumption rate of qualified iodized salt, children's median urinary iodine and goiter rate, and pregnant women's median urinary iodine were analyzed; the evaluation of IDD elimination in counties (cities and districts, hereinafter referred to as counties) was analyzed.Results:From 2012 to 2021, the coverage rate of iodized salt in Shanxi Province was remained > 95%; from 2012 to 2014 (transition period between new and old standard iodized salt), the consumption rate of qualified iodized salt had an upward trend (χ 2trend = 2 703.32, P < 0.001), with a downward trend from 2015 to 2017 (before and after the reform of the salt industry system, χ 2trend = 122.18, P < 0.001), and with an upward trend from 2018 to 2021 (after the reform of the salt industry system, χ 2trend = 455.11, P < 0.001), from 2018, the consumption rate of qualified iodized salt remained > 90%; from 2015 to 2021, the average content of salt iodine was between 23 - 25 mg/kg, and the coefficient of variation of salt iodine was 15% - 18%. From 2014 to 2021, the median urinary iodine of children in Shanxi Province remained at 200 - 250 μg/L, the median urinary iodine of pregnant women remained at 150 - 200 μg/L, and the goiter rate of children remained below 5%. Every year, iodine nutrition of pregnant women in some counties was insufficient. In 2016, the proportion of counties with insufficient iodine nutrition of pregnant women was high, reached 30.0% (12/40); from 2018 to 2021, the proportion of counties with insufficient iodine nutrition of pregnant women had a downward trend (χ 2trend = 9.37, P = 0.002), which was 11.1% (13/117) in 2021. In 2020, 117 counties in the province reached the IDD elimination standard, with a compliance rate of 100.0%. Conclusions:Since the implementation of the current salt iodine content standard for 10 years, the consumption rate of qualified iodized salt has gradually stabilized and remained at a high level, which can ensure that IDD is in a sustainable state of elimination in Shanxi Province, and the iodine nutrition of school-age children and pregnant women is generally at a suitable level. However, there are a certain number of counties with insufficient iodine nutrition of pregnant women. It is recommended to guide pregnant women to supplement iodine or set the average standard of salt iodine for pregnant women separately.

Objective:To investigate the iodine nutrition level of pregnant women in Shanxi Province, and to provide basis for guiding pregnant women to supplement iodine scientifically.Methods:From 2016 to 2018, 40, 80 and 118 counties were selected in Shanxi Province. In each county, 5 townships were selected according to the east, west, south, north and middle orientation, 20 pregnant women were selected from each township. Urine and salt samples of pregnant women were collected, and urinary iodine and salt iodine contents were determined, respectively.Results:From 2016 to 2018, 3 590, 7 907, and 11 750 salt samples were collected from pregnant women's homes. The medians salt iodine were 23.80, 23.70, 23.25 mg/kg, and the qualified iodized salt consumption rates were 91.06% (3 269/3 590), 90.06% (7 121/7 907), 92.21% (10 835/11 750), and the coverage rate of iodized salts were 97.72% (3 508/3 590), 97.00% (7 670/7 907), 98.53% (11 577/11 750), and the qualified rate of iodized salts was 93.19% (3 269/3 508), 92.84% (7 121/7 670), 93.59% (10 835/11 577), respectively. There were statistically significant differences in the median salt iodine and qualified iodized salt consumption rate among pregnant women in different years ( H = 99.915, χ 2 = 27.988, P < 0.05). Totally 3 902, 7 892 and 11 745 urine samples of pregnant women were tested, and the medians (quartiles) urinary iodine were 174.20 (114.00, 251.08), 180.70 (117.13, 258.58) and 179.40 (115.90, 249.00) μg/L, respectively. There was statistically significant difference in the median urinary iodine among pregnant women in different years ( H = 12.368, P < 0.05). From 2016 to 2018, counties with appropriate levels of iodine accounted for 70.00% (28/40), 73.75% (59/80) and 70.34% (83/118), respectively. The medians (quartiles) urinary iodine levels of pregnant women in the early, middle and late stages of pregnancy ( n = 2 225, 5 727, 3 793) in 2018 were 177.62 (117.28, 257.23), 178.21 (117.40, 248.40) and 172.70 (112.98, 245.70) μg/L, respectively, and there was statistical by significant difference in urinary iodine levels among pregnant women in different pregnancy periods ( H = 11.077, P < 0.05). Conclusions:From 2016 to 2018, the iodine nutrition level of pregnant women in Shanxi Province is generally in an appropriate state, iodine deficiency or more than appropriate still exists in some areas. We should continue to carry out monitoring work, and focus on strengthening health education for pregnant women, and guide them to supplement iodine scientifically and accurately.

Objective:To study the relationship between thyroid volume (TV) and thyroid autoantibodies in patients with autoimmune thyroid disease (AITD), and to explore the factors affecting goiter in patients with AITD.Methods:The newly diagnosed AITD adult patients in the Affiliated Hospital of Shanxi Institute for Endemic Disease Prevention and Control from November 2019 to October 2020 were selected for questionnaire survey, physical examination, thyroid function and thyroid autoantibody test, determination of serum iodine content and thyroid ultrasound, and the correlation between thyroid volume and thyroid autoantibody was analyzed.Results:A total of 147 newly diagnosed adult AITD patients were included, including 63 cases of Graves' disease (GD, 30 males and 33 females) and 84 cases of chronic lymphocytic thyroiditis (HT, 29 males and 55 females). The TV of male and female patients with GD was positively correlated with the levels of thyrotropin receptor antibody (TRAb) ( rmen = 0.515, rwomen = 0.412, P < 0.05). The TV of male and female patients with HT was not correlated with the levels of thyroid peroxidase antibody (TPOAb) and thyroglobulin antibody (TGAb, rmen = - 0.137, 0.168, rwomen = 0.184, - 0.088, P > 0.05). There were no correlation between TPOAb levels and TGAb levels in male and female HT patients ( rmen = 0.153, rwomen = 0.102, P > 0.05). The TV of male and female patients with GD or HT was not correlated with the serum levels of iodine ( rmen = 0.230, 0.013, rwomen = 0.096, 0.069, P > 0.05). Conclusion:TRAb level is positively correlated with the TV in GD patients.

Objective:To master the prevalence of thyroid nodule in adults in different water iodine areas and to explore the association between high iodine intake through drinking water and thyroid nodule prevalence.Methods:Xiwenzhuang Village of Taiyuan City was selected as iodine-adequate area, and Gaoche Village and Maxi Village of Wenshui County as high-iodine area and low-iodine area, respectively, in Shanxi Province. Questionnaire surveys were conducted, thyroid ultrasound was used and urinary iodine levels were determined of residents aged 18 to 65 years. Analysis of the prevalence of thyroid nodules in adults in different wated iodine areas.Results:A total of 868 person were investigated, including 286 in high-iodine area, 270 in iodine-adequate area and 312 in low-iodine area. The medians urinary iodine in high, adequate and low iodine areas were 418.7, 218.5 and 127.1 μg/L, respectively, and the differences were statistically significant ( H = 289.70, P < 0.05). The detection rate of thyroid nodule in adults with high, adequate and low iodine levels were 31.1% (89/286), 27.4% (74/270) and 19.2% (60/312), respectively, the differences were significant statistically among three groups (χ 2 = 11.65, P < 0.05). The detection rates of solitary nodule in adults were 17.8% (51/286), 14.1% (38/270), and 13.1% (41/312), respectively, the differences were not significant statistically among the three groups (χ 2 = 2.83, P > 0.05). The detection rate of multiple nodules in adults were 13.3% (38/286), 13.3% (36/270), and 6.1% (19/312), respectively, the differences were significant statistically among the three groups (χ 2 = 10.89, P < 0.05) high-iodine area and iodine-adequate area have higher detection rates than low-iodine area ( P < 0.05). The thyroid nodules were mainly the cyst nodules in high-iodine area. Conclusions:The detection rate of thyroid nodule in adults is the lowest in adequate iodine nutrition level. More iodine intake is probably a risk factor for thyroid multiple nodules.

Objective:To master the changing trend of drinking-water-borne endemic arsenic poisoning in Shanxi Province and the implementation of prevention and control measures, to evaluate the progress of elimination target, and to provide objective basis for the implementation of refined management.Methods:In 2018, according to the mid-term evaluation plan of the "Thirteenth Five-Year Plan for National Endemic Disease Control" and the requirements of the "Measures for Elimination Control and Evaluation of Key Endemic Diseases", in 157 disease affected villages or high arsenic villages of 16 counties (cities, districts) in the province, taking the administrative village as the unit, a census of all permanent residents was conducted to investigate the condition of current patients and find out the new cases of arsenic poisoning; the implementation of water improvement measures and the operation of water improvement project were investigated; one tap water sample was collected from each administrative village to detect the arsenic content in the water; and the elimination of arsenic poisoning was evaluated.Results:A total of 1 221 cases of drinking-water-borne endemic arsenic poisoning were investigated in the whole province, including 982 mild cases, 190 moderate cases and 49 severe cases, accounting for 80.43%, 15.56% and 4.01%, respectively; all the 1 221 cases were monitored and registered before 2011, no new cases were found. In the 157 investigated villages, the rate of water improvement was 94.90% (149/157), the average content of arsenic in water of village with water improvement was 0.022 3 mg/L, ranging from 0.000 5 to 0.193 9 mg/L; the qualified rate of water arsenic after water improvement was 83.89% (125/149), and the normal operation rate of water improvement project was 82.55% (123/149). Ten counties (cities, districts) had reached the elimination standard, and six counties (cities) had not reached the elimination standard.Conclusions:The prevention and control effect of control measures on drinking-water-borne endemic arsenic poisoning in Shanxi Province is remarkable, and there is no new case for many years. In the future, efforts should be made to improve water supply, carry out one village one policy refined management, ensure that all disease affected villages or high arsenic villages meet the national elimination standards, and achieve the goal of the special three-year program for prevention and control of endemic diseases.

Endemic disease prevention and control is a great livelihood project. The three-year campaign of endemic disease prevention and control is a concrete embodiment of the idea of "people-centered", and an important measure to help the disease areas get rid of poverty and build a well-off society in an all-round way. Since the founding of the People's Republic of China, Shanxi Province has made great achievements in the prevention and control of endemic disease. At this stage, Shanxi Province has strengthened the organization and management, and the six major actions have been carried out simultaneously, and the goal of comprehensive control and elimination of key endemic disease has been achieved steadily. In this paper, the situation of tackling key problems in Shanxi Province is introduced, and the establishment and improvement of sustainable elimination and control mechanism of endemic disease are prospected.

Objective To understand the iodine nutritional status and thyroid function of different populations after 20 years of universal salt iodization in iodine deficiency area of Shanxi Province, and to provide data support for scientific iodine supplementation according to local conditions. Methods In 2014, six townships (Chengguan, Dadeng, Dengzhuang, Gucheng, Xiangling and Fencheng townships) in Xiangfen County, Linfen City, Shanxi Province, were selected as the place of investigation. Four hundred school-age children aged 6 - 12 years (school-age children), 400 child-bearing women aged 18 - 44 (child-bearing women), 400 pregnant women, 400 lactating women and their 0 - 6 months breast-feeding infants (breast-feeding infants), and 400 children aged 7 -24 months were selected by two-stage sampling method. Water samples of school-age children's domestic drinking water and salt samples for domestic consumption were collected, and the water iodine and salt iodine were detected by arsenic and cerium catalytic spectrophotometry ( recommended by the National Iodine Deficiency Disorders Reference Laboratory) and "General Test Method in Salt Industry-Determination of Iodine" (GB/T 13025.7-2012). Random urine samples of all subjects were collected, urine iodine was detected by "Method for Determination of Iodine in Urine by As3+-Ce4+ Catalytic Spectrophotometry" ( WS/T 107-2006 ) . Samples of filter paper dried blood spots (DBS) of school-age children, child-bearing women, pregnant women, lactating women and breast-feeding infants were collected, and serum total thyroxine (TT4) and thyroid stimulating hormone (TSH) levels were detected by time-resolved fluorescence immunoassay. Results A total of 290 water samples were collected, and the median of water iodine was 9.37μg/L. A total of 406 salt samples were collected, the median of salt iodine was 25.0 mg/kg, the coverage rate of iodized salt was 98.52％ (400/406), and the consumption rate of qualified iodized salt was 92.61％ (376/406). Urine samples of 389 school-age children, 379 child-bearing women, 363 pregnant women, 365 lactating women, 366 breast-feeding infants, and 366 children aged 7 - 24 months were collected, and the medians of urine iodine were 200.7, 175.0, 186.0, 113.2, 285.8 and 204.8 μg/L, respectively. Among them, school-age children, breast-feeding infants, and children aged 7-24 months were over the appropriate level, while the rest populations were at the iodine appropriate levels. Blood samples of 402 school-age children, 397 child-bearing women, 398 pregnant women, 390 lactating women, and 386 breast-feeding infants were collected, and the medians of TT4 were 127.2, 110.2, 141.7, 95.8 and 139.0 nmol/L, respectively; the medians of TSH were 1.2, 0.9, 0.8, 0.9 and 0.9 mU/L, respectively, and they were all within the reference ranges. The abnormal rates of TT4 (8.46％, 33/390) and TSH (7.95％, 31/390) in lactating women were higher than those in school-age children, child-bearing women, pregnant women and breast-feeding infants [TT4 abnormal rates were 0.25％(1/402), 1.26％ (5/397), 0.50％ (2/398), 1.04％ (4/386), respectively; TSH abnormal rates were 1.24％ (5/402), 1.51％ (6/397), 1.51％ (6/398) and 0.78％ (3/386), respectively, P < 0.05]. The rate of thyroid dysfunction in lactating women (7.95％, 31/390) was higher than those in the rest populations [1.24％ (5/402), 1.51％ (6/397), 1.51％ (6/398), 0.78％ (3/386), P < 0.05]. Conclusions The iodine intake of different populations in the survey area is generally sufficient, and the current salt iodine content standard can meet the iodine nutrition needs of different populations. Lactating women have a high rate of thyroid dysfunction. It is suggested to stick to the strategy of universal salt iodization to prevent iodine deficiency hazards in iodine deficiency areas, and further strengthen the monitoring of iodine nutrition and thyroid function of pregnant women and lactating women.